Additions to species list of fungi associated with alien and native woody plants in Sverdlovsk Region (Russia, Middle Ural)

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Abstract

We report 115 species of Fungi (Ascomycota, Basidiomycota) and Stramenopiles (Oomycota) as new to Sverdlovsk Region. Four species are new to Russia (Boeremia heteromorpha, Chuppomyces cf. handelii, Nectria nigrescens, Passalora cf. menispermi). 94% of species were identified only on alien plants in Ekaterinburg urban green plantations and greenhouses. Pathogenic species account for 92%, while several species are harmful plant pathogens.

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INTRODUCTION

The research history into alien fungal species of Sverdlovsk Region goes back more than a century (Naumov, 1915; Demidova, 1925; Stepanova, Sirko, 1970). Nevertheless, targeted study of alien and invasive species of fungi in the region began in the 21st century (Shiryaev, 2009; Shiryaev et al., 2010; Shiryaev, Stavishenko, 2011). This is the tenth work in a series of publications devoted to the identification of alien species of fungi on woody plants of the Middle Urals (Shiryaev et al., 2021, 2022a, 2022b, 2023a, 2023b, 2023c, 2023d; Bulgakov, Shiryaev, 2021, 2022). Each annotated record provides details about specimen ecology and collection information: locality, substrate, date of collecting and specimen herbarium numbers.

MATERIALS AND METHODS

Specimens were collected by A.G. Shiryaev, T.S. Bulgakov and O.A. Kiseleva within Ekaterinburg City territory and Krasnoufimsk area of Sverdlovsk Region in 2000–2023. The collected specimens were processed in the mycological collections of Institute of Plant and Animal Ecology of Ural Branch of the Russian Academy of Sciences (Ekaterinburg, SVER), in the Department of Plant Protection of the Federal Research Center “Subtropical Scientific Center of the Russian Academy of Sciences” (Sochi), and in the Komarov Botanical Institute (Saint Petersburg, LE).

The identification of the fungal species was carried out by light microscopy of temporary preparations according to standard methods (Blagoveshchenskaya, 2015); special key books and monographs were used for identification of the fungal species (Kuprevich, Ulyanishchev, 1975; Ulyanishchev, 1978; Teterevnikova-Babayan, 1987; Butin, 1989; Braun, Melnik, 1997; Ellis, Ellis, 1997; Braun, 1998; Karatygin, 2002; Braun, Cook, 2012; Knudsen, Vesterholt, 2012; Ryvarden, Melo, 2014; Blagoveshchenskaya, 2015), as well as some additional publications devoted to the study and taxonomical revision of the some particular fungal taxa and new species descriptions (Chethana et al., 2015; Norphanphoun et al., 2017; Vohlmayr et al., 2017; Hyde et al., 2018; Jaklitsch et al., 2018; Senwanna et al., 2019; Crous et al., 2020) and open global database “Fungal Databases: U.S. National Fungus Collections” (Farr, Rossman, 2024). The names of fungal species are given according to the open database “MycoBank” (MycoBank, 2024).

The host plant species were identified by the keybook “Keys to the trees and shrubs species of the Urals” (Mamaev, 2000); the plant species are given according to the open nomenclatural database “Plant of the World Online” (POWO, 2024). Some introduced exotic plant species in the collections of the Botanical garden were determined according to the personal data of researchers of the Botanical Garden of the Ural Branch of the Russian Academy of Sciences.

The following abbreviations are used in the list: Ekb – Ekaterinburg city; Ku – Kamensk-Uralski town; Ka – Krasnoufimsk area; BG UrB RAS – Botanical Garden of Ural Branch of the Russia Academy of Sciences; A8 – Arboretum on March 8th street; AP – Arboretum on Pervomayskaya street; VG – Prof. L.I. Vigorov Medicinal crops garden; 4S – Sverdlovsk horticultural selection station; MCP – Mayakovsky Central Park; Scv – Suburban cottage village; 7S – 7 Springs private garden; AA – Park of Agriculture Academy; USTU – Park of the Ural State Transport University; UFU – Botanical garden of Ural Federal University; Pat – pathogenic; Sap – saprobic (non-pathogenic); Myc – mycorrhizal. Before fungal species, the “alien” status is indicated as asterisk. Empty space denotes a local fungal species. New species for Russia are marked with an exclamation mark.

RESULTS

An annotated species list

Ascomycota

Pezizomycotina

Dothideomycetes

Botryosphaeriales

Botryosphaeriaceae

*Dothiorella sarmentorum (Fr.) A.J.L. Phillips, A. Alves et J. Luque – Par/Sap, on dead twigs and branches of Prunus armeniaca L. (Rosaceae): Ekb, 4S, 16.09.2021, SVER(F)86315.

*Guignardia miribelii Aa [≡ Sarcophoma miribelii (Fr.) Höhn.] – Par, on living and dying leaves of Buxus sempervirens L. (Buxaceae): Ekb, BG UrB RAS, 19.09.2010, SVER(F)86414; ibid., AP, 18.10.2023, SVER(F)86413.

Phyllostictaceae

*Phyllosticta innumerabilis Peck – Par, on living leaves of Amelanchier × spicata (Lam.) K. Koch (Rosaceae): Ekb, MCP, 20.09.2023, SVER(F)86416.

*P. magnoliae Sacc. – Par, on living leaves of Magnolia grandiflora L. (Magnoliaceae): Ekb, BG UrB RAS, Greenhouse № 4, 17.09.1997, SVER(F)86353; ibid., 08.06.2001, SVER(F) 86354.

*P. сf. mahoniicola Pass. [≡ Phomopsis mahoniicola (Pass.) Keissl.] – Par, on living leaves of Mahonia aquifolium (Pursh) Nutt. (Barberiaceae): Ekb, BG UrB RAS, 10.1997, SVER(F)86415.

*P. сf. monogyna Allesch. – Par, on living leaves of Crataegus sp. (Rosaceae): Ekb, BG UrB RAS, 12.09.2009, SVER(F)86394.

Cladosporiales

Cladosporiaceae

*Graphiopsis chlorocephala (Fresen.) Trail [= Cladosporium paeoniae Pass., = Dichocladosporium chlorocephalum (Fresen.) K. Schub., U. Braun et Crous] – Par, on living leaves of Paeonia × suffruticosa Andrews (Paeoniaceae): Ekb, BG UrB RAS, 13.08.2022, SVER(F)86412.

Dothideales

Dothideaceae

*Plowrightia ribesia (Pers.) Sacc. – Par, on living and dying branches of Ribes aureum Pursh (Rosaceae): Ekb, 22nd Party Congress Park, 01.09.2020, SVER(F)86470.

*Kabatina thujae R. Schneid. et Arx – Par, on living and dying needles of Thuja occidentalis (Cupressaceae): Ekb, BG UrB RAS, 28.08.2022, SVER(F)86411.

Mycosphaerellales

Mycosphaerellaceae

*Cercospora olivascens Sacc. – Par, on living leaves of Aristolochia fimbriata Cham. (Aristolochiaceae): Ekb, A8, 06.1995, SVER(F)86316.

!*Chuppomyces cf. handelii (Bubák) U. Braun, C. Nakash., Videira et Crous – Par, on living leaves of Rhododendron dauricum L. (Ericaceae): Ekb, BG UrB RAS, 17.10.2023, SVER(F)86469.

*Nothoseptoria caraganae (Henn.) Crous et Bulgakov – Par, on living leaves of Caragana arborescens Lam. (Fabaceae): Ku, artificial forestline, 03.09.1997, SVER(F)86352.

*Passalora gotoana (Togashi) U. Braun [≡ Cercospora gotoana Togashi] – Par, on living leaves of Sorbaria sorbifolia (L.) A. Braun (Rosaceae): Ekb, AA, 20.09.2007, SVER(F)86418; ibid., AP, 18.10.2023, SVER(F)86417.

!*P. cf. menispermi (Ellis et Holw.) U. Braun et Crous – Par, on living leaves of Menispermum dauricum (Menispermacea): Ekb, VG, 21.06.2022, SVER(F)86355.

*P. rhamni (Fuckel) U. Braun – Par, on living leaves of Rhamnus cathartica L. (Rhamnaceae): Ekb, AA, 09.08.2011; ibid., AA, 08.1989, SVER(F)86468; ibid., MCP, 01.09.2020, SVER(F)86467.

*Phloeospora ulmi (Fr.) Wallr. – Par, on living leaves of Ulmus minor Mill. (Ulmaceae): Ku, artificial treeline, 02.09.2013, SVER(F)86409.

*Pseudocercospora araliae (Henn.) Deighton – Par, on living leaves of Aralia mandshurica Rupr. et Maxim (Araliaceae): Ekb, BG UrB RAS, 17.10.2023, SVER(F)86410.

*P. cladrastidis (Jacz.) J.K. Bai et M.Y. Cheng – Par, on living leaves of Maackia amurensis Rupr. (Fabaceae): Ekb, BG UrB RAS, 02.09.2023, SVER(F)86465; ibid., AP, 21.08.1986, SVER(F)86466.

*P. depazeoides (Desm.) U. Braun et Crous – Par, on living leaves of Sambucus nigra L. (Viburnaceae): Ekb, BG UrB RAS, 03.09.2012, SVER(F)86408; ibid., Scv Karasjeozersk, 25.09.2020, SVER(F)86407.

*Ramularia symphoricarpi (Ellis et Everh.) U. Braun – Par, on living leaves of Symphoricarpos albus (L.) S.F. Blake (Caprifoliaceae): Ekb, A8, 07.10.2023, SVER(F)86356.

*Septogloeum carthusianum (Sacc.) Sacc. – Par, on living leaves of Euonymus europaeus L. (Celastraceae): Ekb, AA, 20.09.2007, SVER(F)86400.

*Septoria elaeagni (Chevall.) Desm. – Par, on living leaves of Elaeagnus angustifolia L. (Elaeagnaceae): Ku, artificial treeline, 02.09.2013, SVER(F)86419.

*S. hippocastani Berk. et Broome – Par, on living leaves of Aesculus hippocastanum L. (Sapindaceae): Ekb, BG UrB RAS02.09.2023, SVER(F)86462; ibid., VG, 02.09.2023, SVER(F)86464; ibid., A8, 18.10.2023, SVER(F)86463.

*S. ribis (Lib.) Desm. – Par, on living leaves of Ribes uva-crispa L. (Grossulariaceae): Ekb, AA, 09.1996, SVER(F)86350; ibid., A8, 2022 SVER(F)86351.

*S. robiniae (Lib.) Desm. – Par, on living leaves of Robinia pseudoacacia L. and Amorpha fruticosa L. (Fabaceae): Ekb, VG, 30.09.2020, SVER(F)86403; ibid., BG UrB RAS, 07.10.2022, SVER(F)86404; ibid., Scv Karasjeozersk, 15.09.2022, SVER(F)86405; ibid., 4S, 30.06.2005, SVER(F)86406; ibid., 4S, 30.06.2005, SVER(F)86401; ibid., Scv Kosulino, 15.09.2022, SVER(F)86402.

Sphaerulina cornicola (DC.) U. Braun et Bensch – Par, on living leaves of Cornus sanguinea L. (Rosaceae): Ekb, AA 09.08.2011, SVER(F)86317.

S. oxyacanthae (Kunze et J.C. Schmidt) Quaedvl., Verkley et Crous – Par, on living leaves of Crataegus rhipidophylla Gand. (Rosaceae): Ekb, 4S, 30.06.2005, SVER(F)86399.

Pleosporales

Camarosporidiellaceae

*Camarosporidiella elaeagnicola Wanas., Bulgakov et K.D. Hyde – Par, on dying twigs and branches of Elaeagnus angustifolia (Elaeagnaceae): Ku, artificial treeline, 05.09.2014, SVER(F)86357; ibid., Кu, artificial treeline, 02.09.2013, SVER(F)86358.

*C. laburni (Pers.) Wanas., Bulgakov, Camporesi et K.D. Hyde – Par, on dying twigs and branches of Laburnum × watereri (A.C. Rosenthal et Bermann) Dippel (Fabaceae): Ekb, BG UrB RAS, 01.06.2022, SVER(F)86349.

*C. moricola (Chethana, Bulgakov et K.D. Hyde) Wanas. et K.D. Hyde – Par, on dying twigs of Morus alba L. (Moraceae): Ekb, Scv Shilovski Park, 16.08.2022, SVER(F)86421; ibid., BG UrB RAS, 12.09.2023, SVER(F)86420.

*Camarosporium quaternatum (Hazsl.) Schulzer – Par, on dying twigs and branches of Lycium barbarum L. (Solanaceae): Ekb, Scv Karasjeozersk, 16.08.2022, SVER(F)86461.

Cucurbitariaceae

*Protofenestella ulmi Jaklitsch et Voglmayr – Par, on dying twigs of Ulmus minor (Ulmaceae): Ekb, USTU, 19.09.2023, SVER(F)86318.

Didymellaceae

*Ascochyta actinidiae Tobisch – Par, on living leaves of Actinidia kolomikta (Actinidiaceae): Ekb, BG UrB RAS, SVER(F)86348.

*A. kabatiana Trotter – Par, on living leaves of Laburnum × watereri (Fabaceae): Ekb, UFU, 11.10.2022, SVER(F)86397.

*A. deformis (P. Karst.) P.K. Buchanan – Par, on living leaves of Sambucus sieboldiana (Miq.) Graebn. (Adoxaceae): Ekb, UFU, 09.09.2021, SVER(F)86398.

*A. orientalis Bondartsev – Par, on living leaves of Syringa vulgaris L. (Oleaceae): Ekb, 4S, 17.09.1997, SVER(F)86422.

*A. rhododendri Lind – Par, on living leaves of Rhododendron ponticum L. and R. caucasicum Pall. (Ericaceae): Ekb, Scv Obraztsovo, 18.09.2020, SVER(F)86424; ibid., BG UrB RAS, 04.06.2023, SVER(F)86423.

*A. cf. symphoricarpi Pass. – Par, on dying twigs of Symphoricarpos albus (Caprifoliaceae): Ekb, AA, 20.09.2007, SVER(F)86359.

*A. syringae (Westend.) Bres. – Par, on living leaves of Syringa vulgaris and Syringa sp. (Oleaceae): Ekb, AA, 09.1996, SVER(F)86461; ibid., AP, 21.10.2023, SVER(F)86396.

*A. versicolor Bubák – Par, on living leaves of Aristolochia clematidis L. (Aristolochiaceae): Ekb, BG UrB RAS, 03.09.2018, SVER(F)86360.

*Boeremia exigua (Desm.) Aveskamp, Gruyter et Verkley – Par, on living leaves of Euonymus japonicus Thunb. (Celastraceae): Ekb, BG UrB RAS, Greenhouse № 2, 03.06.2009, SVER(F)86342.

*B. exigua (Desm.) Aveskamp, Gruyter et Verkley var. forsythiae (Sacc.) Aveskamp, Gruyter et Verkley – Par, on living leaves of Forsythia × intermedia (Oleaceae), БС УрО РАН, 03.10.2021, SVER(F)86343.

*B. exigua (Desm.) Aveskamp, Gruyter et Verkley var. viburni (Roum. ex Sacc.) Aveskamp, Gruyter et Verkley – Par, on living leaves of Viburnum lantana L. (Viburnaceae): Ekb, BG UrB RAS, 06.10.2021, SVER(F)86344.

*B. hedericola (Durieu et Mont.) Aveskamp, Gruyter et Verkley – Par, on living leaves of Hedera helix L. (Araliaceae): Ekb, BG UrB RAS, Greenhouse № 1, 15.07.2006, SVER(F) 86345.

!*B. heteromorpha (Schulzer et Sacc.) Jayaward., Jayasiri et K.D. Hyde – Par, on living leaves of Vinca major L. and V. minor L. (Apocynacea): Ekb, Scv Romanovo, 18.09.2020, SVER(F)86347; ibid., BG UrB RAS, 07.10.2023, SVER(F)86346.

*Didymella glomerata (Corda) Qian Chen et L. Cai – Par/Sap, on living leaves of Berberis vulgaris L. (Berberidaceae): Ekb, Obroshensk Park, 27.08.1985, SVER(F)86395.

*D. pomorum (Thüm.) Qian Chen et L. Cai – Par/Sap, on living leaves Prunus cerasus L. (Rosaceae): Ekb, A8, 05.08.2020, SVER(F)86319; ibid., 7S, 31.08.2022, SVER(F)86320.

*Paramacroventuria ribis Crous et Bulgakov – Par, on living leaves of Ribes aureum Pursh (Rosaceae): Ekb, 4S, 05.09.1988, SVER(F)86361.

Dothidotthiaceae

*Dothidotthia negundinicola (Crous et Akulov) Senwanna, Wanas., Bulgakov, Phookamsak et K.D. Hyde – Par, on dying twigs and branches of Acer negundo (Sapindaceae): Ekb, MCP, 01.09.2020, SVER(F)86340; ibid., Pavlik Morozov’s Park, 19.06.2023, SVER(F) 86341.

Phaeosphaeriaceae

*Neosetophoma samarorum (Desm.) Gruyter, Aveskamp et Verkley – Par, on dying and dead fruits of Fraxinus pennsylvanica (Oleaceae): Ekb, Belinskogo str., 28.06.2022, SVER(F)86362.

Pleosporaceae

*Pleospora cf. dichromotricha (Speg.) Wehm. – Par, on dying leaves and twigs of Vitis sp. (Vitaceae): Ekb, BG UrB RAS, 26.07.2022, SVER(F)86425.

Venturiales

Venturiaceae

*Venturia crataegi Aderh. – Par, on living leaves of Crataegus nigra Waldst. et Kit. (Rosaceae): Ekb, 22nd Party Congress Park, 17.10.2021, SVER(F)86460.

Polystomellaceae incertae sedis

*Dothidella ulmi (C.-J.Duval) G. Winter – Par, on living leaves of Ulmus pumila L. (Ulmaceae): Ekb, UFU Biological Station, 29.07.2006, SVER(F)86321.

Helotiales

Cenangiaceae

Rhabdocline laricis (Vuill.) J.K. Stone – Par, on living needles of Larix sp. (cult.): Ekb, BG UrB RAS, 22.08.2020, SVER(F)86363.

Dermateaceae

Dermea cerasi (Pers.) Fr. – Par, on dead twigs and branches of Prunus fruticosa Pall. (Rosaceae): Ka, Аlexander’s Hills, 18.09.2021, SVER(F)86339.

Drepanopezizaceae

Drepanopeziza salicis (Tul. et C. Tul.) Höhn. – Par, on living leaves of Salix alba (Salicaceae): Ka Sargaya, 25.08.2023, SVER(F)86426.

Erysiphaceae

*Erysiphe kenjiana (Homma) U. Braun et S. Takam. – Par, on on living leaves of Ulmus minor (Ulmaceae): Ekb, USTU, 24.08.2022, SVER(F)86390.

*E. lauracearum (Graniti et U. Braun) M. Bradshaw, U. Braun et Pfister – Par, on on living leaves of Laurus nobilis L. (Lauracea): Ekb, BG UrB RAS, Greenhouse № 3, 29.06.2009, SVER(F)86393.

*Podosphaera cf. amelanchieris Maurizio – Par, on living leaves of Amelanchier alnifolia (Rosaceae): Ekb, BG UrB RAS, 02.09.2023, SVER(F)86392; ibid., 4S, 26.09.2023, SVER(F) 86391.

*Sawadaea negundinis Homma – Par, on living leaves of Acer negundo (Sapindaceae): Ekb, Botanical City District, 22.08.2021, SVER(F)86389; ibid., Zelenaya Roscha, 09.09.2022 SVER(F)86388.

Mollisiaceae

Trimmatostroma salicis Corda – Sap, on dead twigs and branches of Salix sp. (cult.): Ekb, Мoskovskaya str. 215, 22.05.2023, SVER(F)86338.

Sclerotiniaceae

*Botrytis paeoniae Oudem. – Par, on living leaves of Paeonia × suffruticosa Andrews (Paeoniaceae): Ekb, BG UrB RAS, 28.07.2022, SVER(F)86364.

Sclerotiniaceae incertae sedis

*Coniothyrium laburnophilum Oudem. – Par, on living leaves of Laburnum × watereri (Fabaceae): Ekb, UFU, 11.10.2022, SVER(F)86429; ibid., BG UrB RAS, 01.10.2022, SVER(F)86322.

*Cryptocline taxicola (Allesch.) Petr. – Par, on living needles of Taxus baccata L. (Taxaceae): Ekb, BG UrB RAS, 03.06.2022, SVER(F)86427; ibid. 19.05.2023, SVER(F)86428.

Leotiomycetes

Rhytismatales

Rhytismataceae

*Rhytisma punctatum (Pers.) Fr. – Par, on living leaves of Acer campestre L. (Sapindaceae): Ku, artificial treeline, 02.09.2013, SVER(F)86387.

Sordariomycetes

Amphisphaeriales

Sporocadaceae

*Seimatosporium physocarpi Norph., Bulgakov et K.D. Hyde – Par, on living leaves of Physocarpus opulifolius (Rosaceae): Ekb, A8, 20.09.2007, SVER(F)86366; ibid., AA, 09.1996, SVER(F)86365.

*Sporocadus cotini F. Liu, L. Cai et Crous – Par, on living leaves of Cotinus coggygria Scop. (Anacardiaceae): Ekb, Scv Karasjeozersk, 15.09.2022, SVER(F)86458; ibid., Scv Karasjeozersk, 02.10.2023, SVER(F)86459; ibid., BG UrB RAS, 02.09.2023, SVER(F)86457.

Diaporthales

Gnomoniaceae

*Apiognomonia erythrostoma (Pers.) Höhn. – Par, on living leaves of Prunus cerasus L. (Rosaceae): Ekb, Botanical City District, 07.09.2023, SVER(F)86337.

Asteroma alneum (Pers.) B. Sutton – Par, on living leaves of Alnus incana (Betulaceae): Ka, Sargaya, 25.08.2023, SVER(F)86386.

A. padi DC. – Par, on living leaves of Prunus padus L. (Rosaceae): Ekb, Zelenaya Roscha, 06.10.2023, SVER(F)86430.

Plagiostoma apiculatum (Wallr.) L.C. Mejia – Par, on dying twigs of Salix alba L. (Salicaceae): Ekb, Cheluskintsev str., 16.08.2015, SVER(F)86323.

Cytosporaceae

Cytospora sorbicola Norph., Bulgakov, T.C. Wen et K.D. Hyde – Par, on dying twigs and branches of Amelanchier alnifolia (Rosaceae): Ekb, Моskovskaya str., 215, 06.03.2023, SVER(F)86456.

Diaporthaceae

*Diaporthe eres Nitschke – Par/Sap, on dying and dead twigs of Sambucus sieboldiana (Miq.) Graebn. (Adoxaceae): Ekb, UFU, 09.09.2021, SVER(F)86385.

*D. laschii Nitschke [= Dothichiza foveolaris (Fr.) Petr., = Phomopsis foveolaris (Fr.) Traverso] – Par, on dying twigs and branches of Euonymus alatus (Thunb.) Siebold (Celastraceae): Ekb, BG UrB RAS, 26.08.2000, SVER(F)86431.

*Phomopsis arnoldiae B. Sutton [= Phyllosticta argyrea Speg.] – Par, on living leaves and dying twigs and branches of Elaeagnus angustifolia (Elaeagnaceae): Ku, Big Sungul lake surrounds, artificial treeline, 19.09.2012, SVER(F) 86434; ibid., artificial treeline, 03.09.2023, SVER(F)86433; ibid., BG UrB RAS, 18.08.2023, SVER(F)86435; ibid., MCP, 01.09.2020, SVER(F)86432.

Hypocreales

Nectriaceae

*Nectria сf. dematiosa (Schwein.) Berk. – Par, on dying and dead twigs and branches of Juglans mandshurica (Juglandaceae), Ekb, Bazhov str., 19.06.2023, SVER(F) 86334; ibid., BG UrB RAS, 12.06.2023, SVER(F) 86335; ibid., Aesculus hippocastanum (Sapindaceae), Schevchenko str., 22.06.2023, SVER(F)86333.

!*N. nigrescens Cooke – Par, on dying and dead twigs and branches of Ulmus pumila (Ulmaceae): Ekb, USTU, 27.06.2012, SVER(F)86455.

*Pseudonectria buxi (DC.) Seifert, Gräfenhan et Schroers – Par, on dying leaves and twigs of Buxus sempervirens (Buxaceae): Ekb, AP, 18.10.2023, SVER(F)86383; ibid., 18.10.2023, SVER(F)86384.

*Thyronectria caraganae Voglmayr, Akulov et Jaklitsch – Sap, on dead twigs and branches of Caragana arborescens (Fabaceae): Ekb, Serov str., 08.1954, SVER(F)86367.

Phyllachorales

Phyllachoraceae

*Phyllachora phyllostachydis Hara – Par, on living and dying leaves of Phyllostachys reticulata (Rupr.) K. Koch (Poaceae): Ekb, BG UrB RAS, Greenhouse № 4, 01.07.2014, SVER(F)86324.

Xylariales

Diatrypaceae

*Diatrypella favacea (Fr.) Ces. et De Not. – Par/Sap, on dead twigs and branches of Corylus avellana (Betulaceae): Ekb, BG UrB RAS, 03.09.2023, SVER(F)86437.

*D. verruciformis (Ehrh. ex Pers.) Nitschke – Par/Sap, on dead twigs and branches of Corylus heterophylla Fisch. ex Trautv. (Betulaceae): Ekb, BG UrB RAS, 12.06.2023, SVER(F)86436.

Eutypella stellulata (Fr.) Sacc. – Par/Sap, on dead twigs and branches of Alnus incana (L.) Moench (Betulaceae): Ekb, Оbroshensk Park, 17.08.2023, SVER(F)86382.

Hypoxylaceae

Biscogniauxia marginata (Fr.) Pouzar – Par/Sap, on dying and dead twigs and branches of Scandosorbus intermedia (Ehrh.) Sennikov [≡ Sorbus intermedia (Ehrh.) Pers.]: Ekb, BG UrB RAS, 17.10.2023, SVER(F)86369.

Jackrogersella cohaerens (Pers.) L. Wendt, Kuhnert et M. Stadler [≡ Hypoxylon cohaerens (Pers.) Fr.] – Sap, on fallen branch of Acer platanoides (Sapindaceae) with Hyphodontia arguta (Fr.) J. Erikss.: Ka, Sargaya village surrounds, 18.09.2023, SVER(F)86368.

Pezizomycotina incertae sedis

*Didymosporina aceris (Lib.) Höhn. – Par, on living leaves of Acer campestre L. (Sapindaceae): Ku, artificial treeline, 02.09.2008, SVER(F)86438.

Taphrinomycotina

Taphrinomycetes

Taphrinales

Taphrinaceae

*Taphrina deformans (Berk.) Tul. – Par, on living leaves of Prunus persica (L.) Batsch (Rosaceae): Ekb, 4S, 16.09.2021, SVER(F)86332.

T. sadebeckii Johanson – Par, on living leaves of Alnus incana (Betulacea): Ka, Sargaya, 19.07.2023, SVER(F)86381.

T. ulmi (Fuckel) Johanson – Par, on living leaves of Ulmus glabra Huds. (Ulmaceae): Ekb, MCP, 27.07.2022, SVER(F)86325.

Basidiomycota

Agaricomycotina

Agaricomycetes

Agaricales

Omphalotaceae

*Lentinula edodes (Berk.) Pegler – Sap, on rotten logs of Juglans mandshurica (Juglandaceae) and Tilia amurensis (Malvaceae) serving as curbs: Ekb, BG UrB RAS, Greenhouse № 1, 09.06.1996, SVER(F)86370.

Pleurotaceae

*Pleurotus citrinopileatus Singer – Sap, on fallen trunks of Ulmus minor (Ulmaceae) and Populus balsamifera (Salicaceae): Ekb, Gipsy village, 10.08.2022, SVER(F)86439.

Resupinataceae

Resupinatus applicatus (Batsch) Gray – Sap, on dead stems of Parthenocissus quinquefolia (Vitaceae): Ekb, BG UrB RAS, 07.08.2019, SVER(F)86380.

*R. poriaeformis (Pers.) Thorn, Moncalvo et Redhead – Sap, on dead fallen trunk of Acer negundo (Sapindaceae): Sysert town, Central Park, 30.07.2022, SVER(F)86331.

Schizophyllaceae

Rectipilus fasciculatus (Pers.) Agerer [≡ Solenia fasciculata Pers.] – Sap, on dead petioles of Matteuccia struthiopteris (L.) Tod. (Onocleaceae) with Woldmaria filicina (Peck) Knudsen: Ka, Sargaya village surrounds, 18.09.2023, SVER(F)86440.

Hymenochaetales

Hymenochaetaceae

*Hymenochaete jaapii Corfixen – Sap, on dead stem of Rubus odoratus L. (Rosaceae): Ekb, VG, 13.09.2020, SVER(F)86371.

Schizoporaceae

Fasciodontia bugellensis (Ces.) Yurchenko, Riebesehl et Langer [≡ Hyphodontia bugellensis (Ces.) J. Erikss.] – Sap, on dead trunk of Populus balsamifera (Salicaceae): Ekb, MCP, 21.09.2016, SVER(F)86379.

Xylodon borealis (Kotir. et Saaren.) Hjortstam et Ryvarden – Sap, on fallen trunk of Tilia cordata (Malvaceae) with Phanerochaete laevis (Fr.) J. Erikss. et Ryvarden: Ka, Nizhneirginsk oak forest, 16.09.2023, SVER(F)86326.

Polyporales

Irpicaceae

Ceriporia rhodella (Fr.) Donk – Sap, fallen trunk of Viburnum opulus (Viburnaceae): Ka, Alexander’s hills, steppe dominated slope, 18.09.2021, SVER(F)86441.

Polyporaceae

*Coriolopsis gallica (Fr.) Ryvarden [≡ Funalia gallica (Fr.) Bondartsev et Singer] – Sap, on fallen dead trunk of Juglans mandshurica (Juglandaceae): Ekb, BG UrB RAS, 31.09.2000, SVER(F)86372 [as Funalia trogii (Berk.) Bondartsev et Singer].

*Lopharia cinerascens (Schwein.) G. Cunn. – Sap, on fallen trunk of Acer negundo (Sapindaceae): Ekb, MCP, 23.08.2008, SVER(F)86330.

Phanerochaetaceae

*Porostereum spadiceum (Pers.) Hjortstam et Ryvarden – Sap, rotten base of living Malus sp. (cult.) (Rosaceae): Ekb, Zelenaya Roscha, 08.1986, SVER(F)86454.

Thelephorales

Thelephoraceae

Hypochnella violacea Auersw. ex J. Schröt. – Sap, fallen trunk of Tilia cordata (Malvaceae): Ka, Sargaya village surrounds, 18.09.2023, SVER(F)86442.

Tomentella cinereoumbrina (Bres.) Stalpers – Myc, fallen trunk of Tilia cordata (Malvaceae) with Thelephora terrestris Ehrh.: Ka, Sargaya village surrounds, 17.09.2023, SVER(F)86443.

Typhulaceae

*Typhula thaxtheri (Burt) Berthier – Sap, on fallen dead twigs of Populus balsamifera (Salicaceae): Ekb, BG UrB RAS, 07.10.2011, SVER(F)86378.

*T. viticola (Peck) Berthier [non T. muelleri (Sauter) Corner] – Sap, on dead twigs of Parthenocíssus quinquefolia (Vitaceae): Ekb, BG UrB RAS, 19.07.2017, SVER(F)86327; ibid., 26.05.2020, SVER(F)86377.

Pucciniomycotina

Pucciniomycetes

Pucciniales

Gymnosporangiaceae

*Gymnosporangium sabinae (Dicks.) G. Winter – Par, on living leaves of Pyrus communis (Rosaceae): Ekb, 4S, 30.06.2005, SVER(F)86372.

Phragmidiaceae

*Phragmidium tuberculatum Jul. Müll. – Par, on living leaves of Rosa centifolia L. (Rosaceae): Ekb, AA, 07.1996, SVER(F)86329.

*P. violaceum (Schultz) Brockm. – Par, on living leaves of Rubus sp. (cult.) (Rosaceae): Ekb, VG, 31.08.2023, SVER(F)86373.

Pucciniaceae

*Puccinia asparagi DC. – Par, on living leaves of Asparagus sp. (Asparagaceae): Ekb, BG Urb RAS, Greenhouse № 2, 18.08.2011, SVER(F)86445.

*P. buxi Sowerby – Par, on living leaves of Buxus sempervirens (Buxaceae): Ekb, Scv Karasjeozersk, 02.10.2023, SVER(F)86446.

*P. coronifera Kleb. – Par, on living leaves of Rhamnus cathartica (Rhamnaceae): Ekb, 4S, 08.1989, SVER(F)86444.

*P. recondita Roberge ex Desm. – Par, on living leaves of Clematis vitalba L. and C. orientalis L. (Ranunculaceae): Ekb, BG UrB RAS, 30.05.2012, SVER(F)86453; ibid., Scv Makarovsky, 27.08.2018, SVER(F)86449.

*Uromyces amurensis Kom. – Par, on living leaves of Maackia amurensis (Fabaceae): Ekb, BG UrB RAS, 04.08.1997, SVER(F)86448.

*U. caraganae (Thüm.) Magnus – Par, on living leaves of Caragana arborescens (Fabaceae): Ekb, UFU, 05.10.2022, SVER(F)86447.

Pucciniastraceae

*Melampsoridium carpini (Nees) Dietel – Par, on living leaves of Carpinus betulus L. (Betulaceae): Ekb, Scv Romanovo, 18.09.2022, SVER(F)86375.

*M. hiratsukanum S. Ito ex Hirats. – Par, on living leaves of Alnus incana (Betulaceae): Ekb, surrounds of Ural Federal University biological station, 20.08.2023, SVER(F)86374.

Ustilaginomycotina

Exobasidiomycetes

Exobasidiales

Exobasidiacae

*Exobasidium cf. camelliae Shirai – Par, on living leaves of Camellia japonica L. (Theaceae): Ekb, BG UrB RAS, Greenhouse № 2, 06.1996, SVER(F)86451.

*E. dubium Racib. – Par, on living leaves of Rhododendron luteum Sweet (Ericaceae): Ekb, Scv Palnix, 18.09.2020, SVER(F)86450.

Microstromatales

Microstromataceae

*Pseudomicrostroma juglandis (Bérenger) Kijporn. et Aime – Par, on living leaves of Juglans regia and J. cinerea (Juglandaceae): Ekb, BG UrB RAS, 20.09.2020, SVER(F)86452; ibid., 4S, 05.09.1988, SVER(F)86328.

Oomycota

Peronosporomycetes

Peronosporales

Peronosporaceae

*Plasmopara cf. muralis Thines – Par, on living leaves of Parthenocissus quinquefolia (Vitaceae): Ekb, BG UrB RAS, 07.2007, SVER(F)86376.

DISCUSSION

In Sverdlovsk Region and Ekaterinburg City, there are 115 species of fungi and fungus-like were identified for the first time. Probably, four species (Boeremia heteromorpha, Chuppomyces cf. handelii, Nectria nigrescens, Passalora cf. menispermi) are indicated for the first time in Russia. 107 species were collected in gardens, parks and forest belts of Ekaterinburg, and eight species in the natural conditions of the region. 106 species are pathogens of woody plants, eight are non-pathogenic saprotrophs on dead wood, and one species mycorrhizal and forms fruiting bodies on dead wood.

A number of fungal species rare for all of Russia have been identified in the open ground of gardens and parks in Ekaterinburg: Sporocadus cotini collected on Cotinus coggygria; Calonectria pseudonaviculata, Guignardia miribelii, Pseudonectria buxi and Puccinia buxi on Buxus sempervirens; Ascochyta rhododendri, Chuppomyces cf. handelii and Exobasidium dubium on different species of Rhododendron spp.; Camarosporidiella moricola and Pseudosplanchnonema phorcioides on Morus alba; Ascochyta actinidiae on Actinidia kolomikta; Ramularia schisandrae on Schizandra chinensis; Pseudocercospora araliae on Aralia mandshurica.

Seven species collected in the urban greenhouses: Phyllosticta magnoliae collected on Magnolia grandiflora; Phyllachora phyllostachydis on Phyllostachys reticulata; Exobasidium cf. camelliae on Camellia japonica; Boeremia hedericola on Hedera helix; Erysiphe lauracearum has found on Laurus nobilis; Puccinia asparagi on Asparagus sp. as well as Lentinula edodes on rotten logs of Juglans mandshurica and Tilia amurensis serving as curbs that limit paths from the beds.

A number of fungal species included in the European lists of alien taxa, as well as dangerous phytopathogens on a global scale (Mułenko et al., 2010; Wojewoda, Karasinski, 2010; Beenken, Senn-Irlet, 2016; Rabitsch, Nehring, 2021; Voglmayr et al., 2023; Schertler et al., 2024): Ascochyta actinidiae, A. syringae, Boeremia exigua, Camarosporium quaternatum, Calonectria pseudonaviculata, Gymnosporangium sabinae, Guignardia miribelii, Kabatina thujae, Melampsoridium hiratsukanum, Nothoseptoria caraganae, Phyllosticta innumerabilis, P. magnoliae, Plasmopara muralis, Podosphaera amelanchieris, Pseudomicrostroma juglandis, Pseudonectria buxi, Puccinia asparagi, P. buxi, Venturia pyrina, Uromyces caraganae.

Pleurotus citrinopileatus was collected in Ekaterinburg on fallen trunks of elm and poplar, where it was deliberately populated. The fungus develops and bears fruitbodies for several years only on two logs in which its mycelium was placed, but does not spread to adjacent dead logs.

It is also worth mentioning about the alien East Asian species – Lentinula edodes (shiitake), which is present in the lists of invasive and alien species in many European countries (Beenken, Senn-Irlet, 2016; Rabitsch, Nehring, 2021; Voglmayr et al., 2023). Since the 1980s, this fungus has been regularly found in European cities greenhouses, and in Ekaterinburg City it was also discovered in a greenhouse in 1996. The fungus is cultivated on an industrial scale: global production of shiitake in 2021 was about 10 million tons, and on farms located in the European part of Russia, about 60 tons of this exotic fungus are grown, which are sold in grocery stores throughout the country (Khrenov, 2022). Consequently, human activities contribute to the expansion of the range and abundance of this species on a national and global scale. Obviously, such alien species should not be given the status of rare and protected in the European and Siberian parts of Russia, and also should not be included in the Monitoring list of the Red Data Book of Russia. In order to preserve natural populations, L. edodes is included in the Red Data Book of Primorsky Krai (Postanovleniye.., 2022).

×

About the authors

A. G. Shiryaev

Institute of Plant and Animal Ecology of the Ural Branch of the Russian Academy of Sciences

Author for correspondence.
Email: anton.g.shiryaev@gmail.com
Russian Federation, Ekaterinburg

T. S. Bulgakov

Subtropical Scientific Centre of the Russian Academy of Sciences

Email: ascomycologist@yandex.ru
Russian Federation, Sochi

O. S. Shiryaeva

Institute of Plant and Animal Ecology of the Ural Branch of the Russian Academy of Sciences

Email: olga.s.shiryaeva@gmail.com
Russian Federation, Ekaterinburg

O. A. Kiseleva

Ural Federal Agrarian Scientific Research Centre of the Ural Branch of the Russian Academy of Sciences

Email: kiselevaolga@inbox.ru
Russian Federation, Ekaterinburg

I. V. Zmitrovich

Komarov Botanical Institute of the Russian Academy of Sciences

Email: iv_zmitrovich@mail.ru
Russian Federation, Saint Petersburg

References

  1. Beenken L., Senn-Irlet B. Neomyceten in der Schweiz. Stand des Wissens und Abschätzung des Schadpotentials der mit Pflanzen assoziierten gebietsfremden Pilze. WSL Berichte 50. Birmensdorf: Eidg. Forschungsanstalt für Wald, Schnee und Landschaft WSL, 2016.
  2. Blagoveshchenskaya E.Yu. Phytopathogenic micromycetes: educational keybook. Moscow, 2015 (In Russ.).
  3. Braun U. A monograph of Cercosporella, Ramularia and allied genera (phytopathogenic Hyphomycetes). V. 2. IHW-Verlag, Eching bei Munchen, 1998.
  4. Braun U., Cook R.T.A. Taxonomic manual of the Erysiphales (powdery mildews). CBS Biodiversity series. V. 11. APS Press, Utrecht, 2012.
  5. Braun U., Melnik V.A. Cercosporoid fungi from Russia and adjacent countries. Proceedings of the Komarov Botanical Institute. V. 20. Russian Academy of Sciences, SPb., 1997.
  6. Bulgakov T.S., Shiryaev A.G. New finds of phyllotrophic plant pathogenic microfungi in Ekaterinburg city and its suburbs. Mikologiya i fitopatologiya. 2021. V. 55 (6). P. 405–410. https://doi.org/10.31857/S0026364821060064
  7. Bulgakov T.S., Shiryaev A.G. Powdery mildews (Erysiphaceae) on woody plants in urban habitats of Sverdlovsk Region (Russia). Mikologiya i fitopatologiya. 2022. V. 56 (5). P. 323–331. https://doi.org/10.31857/S002636482205004X
  8. Butin H. Krankheiten der Wald- und Parkbaume: Diagnose, Biologie, Bekampfung. Stuttgart etc., 1989.
  9. Chethana T.K.W., Liu M., Ariyawansa H.A. et al. Splanchnonema-like species in Pleosporales: Introducing Pseudosplanchnonema gen. nov. in Massarinaceae. Phytotaxa. 2015. V. 231 (2). P. 133–144. https://doi.org/10.11646/phytotaxa.231.2.2
  10. Crous P.W., Wingfield M.J., Schumacher R.K. et al. New and Interesting Fungi. 3. Fungal Systematics and Evolution. 2020. V. 6. P. 157–231. https://doi.org/10.3114/fuse.2020.06.09
  11. Demidova Z.A. Overview of diseases of cultivated and wild plants in Ural Oblast. Bull. Uraloblzu. 1925. V. 10. P. 9–20.
  12. Ellis M.B., Ellis J.P. Microfungi on land plants: an identification handbook. New enlarged edition. Richmond P.C., Slough, 1997.
  13. Farr D.F., Rossman A.Y. Fungal Databases, U.S. National Fungus Collections, ARS, USDA. https://nt.ars-grin.gov/fungaldatabases/. Accessed 01.05.2023.
  14. Hyde K.D., Chaiwan N., Norphanphoun C. et al. Mycosphere notes 169–224. Mycosphere. 2018. V. 9 (2). P. 271–430. https://doi.org/10.5943/mycosphere/9/2/8
  15. Jaklitsch W.M., Checa J., Blanco M.N. et al. A preliminary account of the Cucurbitariaceae. Stud. Mycol. 2018. V. 90. P. 71–118. https://doi.org/10.1016/j.simyco.2017.11.002
  16. Karatygin I.V. Definitorium Fungorum Rossiae. The orders Taphrinales, Protomycetales, Exobasidiales, Microstromatales. Nauka, SPb., 2002 (In Russ.).
  17. Khrenov А.V. Editor-in-chief column. Shkola Gribovodstva. 2022. V. 3 (135). P. 6–21.
  18. Knudsen H., Vesterholt J. Funga Nordica. Agaricoid, boletoid, clavarioid, cyphelloid and gasteroid genera. Copenhagen: Nordsvamp, 2012.
  19. Kuprevich V.F., Ulyanishchev V.I. Keys to rust fungi of the USSR. Part 1. Family Melampsoraceae and some Pucciniaceae species. Nauka i tekhnologiya, Minsk, 1975 (In Russ.).
  20. Mamaev S.A. Keys to the trees and shrubs of the Urals. Native and alien species. UrB RAS, Ekaterinburg, 2000 (In Russ.).
  21. Mułenko W., Piątek M., Wołczańska A. et al. Plant parasitic fungi introduced to Poland in modern times. Alien and invasive species // Biological Invasions in Poland. 2010. Vol. 1. P. 49–71.
  22. MycoBank: Fungal databases, Nomenclature and Species Banks. http://www.mycobank.org/. Accessed 01.03.2024.
  23. Naumov N.A. Fungi of the Urals. Notes of UOLE. 1915. V. 35. P. 1–53.
  24. Norphanphoun C., Doilom M., Daranagama D.A. et al. Revisiting the genus Cytospora and allied species. Mycosphere. 2017. V. 8 (1). P. 51–97. https://doi.org/10.5943/mycosphere/8/1/7
  25. POWO – Plants of the World Online. 2024. https://powo.science.kew.org/. Accessed 09.02.2024.
  26. Rabitsch W., Nehring S. (Hrsg.) Naturschutzfachliche Invasivitäts-bewertungen für in Deutschland wild lebende gebietsfremde terrestrische Moose, Flechten und Pilze. BfN-Skripten 603. Bonn, 2021. 121 S.
  27. Red data book of Primorsk territory: rare and vulnerable species of plants and fungi / Biol.-Soil Institute Far Eastern Branch of the Russian Academy of Sciences. Apelsin Press, Vladivostok, 2008.
  28. Ryvarden L., Melo I. Poroid fungi of Europe. Synopsis Fungorum. 2014. V. 31. P. 1–455.
  29. Schertler A., Lenzner B., Dullinger S. et al. Biogeography and global flows of 100 major alien fungal and fungus-like oomycete pathogens. J. Biogeogr. 2024. Vol. 51 (4). P. 599–617. https://doi.org/10.1111/jbi.14755
  30. Senwanna C., Wanasinghe D.N., Bulgakov T.S. et al. Towards a natural classification of Dothidotthia and Thyrostroma in Dothidotthiaceae (Pleosporineae, Pleosporales). Mycosphere. 2019. V. 10 (1). P. 701–738. https://doi.org/10.5943/mycosphere/10/1/15
  31. Shiryaev A.G. Changes in mycobiota of Ural-and-Siberian region under global warming and anthropogenic impact. Vestnik ekologii, lesovedeniya i landshaftovedeniya. 2009. № 9. P. 37–47 (In Russ.).
  32. Shiryaev A.G., Stavishenko I.V. New and rare for Sverdlovsk region species of basidiomycetes. Mikologiya i fitopatologiya. 2011. V. 45 (4). P. 345–349 (In Russ.).
  33. Shiryaev A.G., Kotiranta H., Mukhin V.A. et al. Aphyllophoroid fungi of Sverdlovsk Region (Russia). Biodiversity, distribution, ecology and the IUCN threat categories. Goschitsky Publ., Ekaterinburg, 2010.
  34. Shiryaev A.G., Zmitrovich I.V., Shiryaeva O.S. Species richness of Agaricomycetes on hedge vines in Ekaterinburg City (Russia). Mikologiya i fitopatologiya. 2021. V. 55 (5). P. 340–352. https://doi.org/10.31857/S0026364821050093
  35. Shiryaev A.G., Zmitrovich I.V., Bulgakov T.S. et al. Global warming favors the development of a rich and heterogeneous mycobiota on alien vines in a boreal city under continental climate. Forests. 2022a. V. 13 (2). Art. 323. https://doi.org/10.3390/f13020323
  36. Shiryaev A.G., Zmitrovich I.V., Shiryaeva O.S. New and rare Agaricomycetes species on woody alien plants in Ekaterinburg City (Russia). Mikologiya i fitopatologiya. 2022b. V. 56 (5). P. 350–356.
  37. Shiryaev A.G., Zmitrovich I.V., Zhao P. et al. Fungal diversity of native and alien woody leguminous Plants in the Middle Urals. Contemporary Problems of Ecology. 2023a. V. 16 (4). P. 403–425. https://doi.org/10.1134/S1995425523040091
  38. Shiryaev A.G., Kiseleva O.A. Greenway planning in Ekaterinburg City: Unaccounted phytopathological problems of the urban strategy project. Contemporary Problems of Ecology. 2023b. Vol. 16(4). P. 509–527. https://doi.org/10.1134/S199542552304008X
  39. Shiryaev A.G., Zmitrovich I.V., Senator S.A. et al. How poor is Aphyllophoroid fungi diversity in the boreal urban greenhouses of Eastern Europe? Journal of Fungi. 2023c. Vol. 9(11). Art. 1116. https://doi.org/10.3390/jof9111116
  40. Shiryaev A.G., Bulgakov T.S., Zmitrovich I.V. et al. New species of fungi for Sverdlovsk Region (The Middle Urals, Russia) on alien and aborigine woody plants. Mikologiya i fitopatologiya. 2023d. V. 57 (6). P. 417–424. https://doi.org/10.31857/S0026364823060107
  41. Stepanova N.T., Sirko A.V. Flora of ascomycetes and imperfect fungi of the Urals. In: Spore plants of the Urals: Proc. Inst. Ecol. Plant and Animals. Iss. 70. Sverdlovsk, UF AS USSR, 1970. P. 3–52 (In Russ.).
  42. Teterevnikova-Babayan D.N. Fungi of the genus Septoria in the USSR. Publishing House of the Academy of Sciences of the Armenian SSR, Yerevan, 1987 (In Russ.).
  43. Ulyanishchev V.I. Keys to rust fungi of the USSR. Pt 2. Nauka i Tekhnologiya, Minsk, 1975 (In Russ.).
  44. Voglmayr H., Castlebury L.A., Jaklitsch W.M. Juglanconis gen. nov. on Juglandaceae, and the new family Juglanconidaceae (Diaporthales). Persoonia. 2017. V. 38 (1). P. 136–155.
  45. Voglmayr H., Schertler A., Essl F. et al. Alien and cryptogenic fungi and oomycetes in Austria: an annotated checklist (2nd edition). Biol. Invasions. 2023. Vol. 25. P. 27–38.
  46. Wojewoda W., Karasinski D. Invasive macrofungi (Ascomycota and Basidiomycota) in Poland // Biological Invasions in Poland. 2010. V. 1. P. 7–21.
  47. Демидова З.А. (Demidova) Краткий обзор болезней культурных и дикорастущих растений в Уральской области // Бюллетень УралОблЗУ. 1925. № 10. С. 9–20.
  48. Мамаев С.А. (Mamaev) Определитель деревьев и кустарников Урала. Местные и нтродуцированные виды. Екатеринбург: УрО РАН, 2000. 260 с.
  49. Наумов Н.A. (Naumov) Грибы Урала // Записки УОЛЕ. 1915. Т. 35. С. 1–53.
  50. Постановление Правительства Приморского края от 24.10.2022 № 723-пп “О видах растительного мира Красной книги Приморского края” (Postanovleniye).
  51. Степанова Н.Т., Сирко А.В. (Stepanova, Sirko) К флоре сумчатых и несовершенных грибов Урала. Споровые растения Урала: Тр. инст. экол. раст. и жив. Вып. 70. Свердловск: УФ АН СССР, 1970. С. 3–52.
  52. Тетеревникова-Бабаян Д.Н. (Teterevnikova-Babayan) Грибы рода Septoria в СССР. Ереван: АН АрмССР, 1987. 479 с.
  53. Ульянищев В.И. (Ulyanishchev) Определитель ржавчинных грибов СССР. Часть 2. Л.: Наука, 1978. 384 с.
  54. Хренов А.В. (Khrenov) Колонка главного редактора // Школа грибоводства. 2022. № 3(135). С. 6–21.
  55. Ширяев А.Г. (Shiryaev) Изменения микобиоты Урало-Сибирского региона в условиях глобального потепления и антропогенного воздействия // Вестник экологии, лесоведения и ландшафтоведения. 2009. № 9. С. 37–47.
  56. Ширяев А.Г., Ставишенко И.В. (Shiryaev, Stavishenko) Дополнение к списку видов базидиальных грибов Свердловской области // Микология и фитопатология. 2011. Т. 45, вып. 4. С. 345–349.

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